|Publication number||US6929246 B2|
|Application number||US 10/477,544|
|Publication date||Aug 16, 2005|
|Filing date||Apr 19, 2002|
|Priority date||May 10, 2001|
|Also published as||DE60208183D1, DE60208183T2, EP1387977A2, EP1387977B1, US20040187935, WO2002090813A2, WO2002090813A3|
|Publication number||10477544, 477544, PCT/2002/1360, PCT/FR/2/001360, PCT/FR/2/01360, PCT/FR/2002/001360, PCT/FR/2002/01360, PCT/FR2/001360, PCT/FR2/01360, PCT/FR2001360, PCT/FR2002/001360, PCT/FR2002/01360, PCT/FR2002001360, PCT/FR200201360, PCT/FR201360, US 6929246 B2, US 6929246B2, US-B2-6929246, US6929246 B2, US6929246B2|
|Inventors||Marco Arzenton, Etienne Gounot|
|Original Assignee||L'Air Liquide, Société Anonyme à Directoire et Conseil de Surveillance pour l'Etude et l'Exploitation des Procédés Georges Claude|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (5), Referenced by (34), Classifications (12), Legal Events (4)|
|External Links: USPTO, USPTO Assignment, Espacenet|
1. Field of the Invention
The invention relates to an expansion valve the gas outlet coupling of which comprises an external profile suited to taking a user connector with a complementary internal profile, preferably a expansion valve with a non-adjustable reduced pressure for gas cylinders, particularly those which may be used in the field of food, particularly for drinks, in the field of welding, in laboratories or the like.
2. Related Art
Existing gas valve assemblies with built-in pressure reducers, also known as expansion valves, like the one described in document EP-A-0747796, usually have at least one device for interrupting the delivery of high-pressure gas, a pressure reducer, a system for adjusting the pressure and the flowrate, and a coupling for the gas outlet and to which the user can connect.
The device for interrupting the delivery of high-pressure gas is composed mainly either of the valve shutter of the pressure reducer when the expansion valve assembly has just one shutter, or of a shutter separate from the pressure-reducing shutter, when the expansion valve assembly has several valve shutters, generally two shutters.
When the operator wishes to obtain gas, he has therefore to perform two or even three successive operations, namely to connect a gas outlet coupling to the body of the expansion valve assembly, to open the gas passage by operating a valve or a control lever on the gas outlet, and possibly to adjust the flowrate and/or the pressure of the gas to the desired value.
Now, in a certain number of uses or applications, these successive operations on the part of the user on the expansion valve assembly may give rise to:
In an attempt at solving this problem, an expansion valve which is simpler to use than the conventional expansion valves, even for users with no particular technical awareness as it has a reduced number of operations that need to be performed when the user taps off gas, has already been proposed and this valve being characterized by the presence of a gas outlet coupling which can take a user connector and which delivers reduced-pressure gas at a reduced pressure that the user cannot adjust, that is to say at a predetermined fixed pressure of, for example, 8 bar.
Now, at the present time, gas outlet couplings of this type of expansion valve are all practically identical or differ from one another only very slightly, which means that there may be a significant risk of error, when the user connection is being connected or coupled to the said coupling by an ill-informed operator.
The purpose of the present invention is therefore to solve the above problem by proposing an improved expansion valve.
The solution to this problem therefore consists in a fluid expansion valve preferably with a preset reduced pressure comprising:
For a further understanding of the nature and objects for the present invention, reference should be made to the following detailed description, taken in conjunction with the accompanying drawings, in which like elements are given the same or analogous reference numbers and wherein:
As appropriate, the expansion valve of the invention may have one or more of the following features:
According to another aspect, the invention relates also to a system for transferring fluid comprising a gas expansion valve according to the invention, and a gas outlet connector having an internal profile which complements the external profile of the said outlet coupling and comprising a body in which there is formed an internal guidance and locking system used to receive and guide the end of the outlet coupling of the expansion valve and, also, to prevent the connector from becoming disconnected from the said coupling by collaborating with the external profile of the external peripheral wall of the coupling, the said connector also comprising a connector valve shutter which normally rests against a valve seat and can be moved in translation along the longitudinal axis of the connector.
The invention also relates to a container of pressurized fluid, particularly a gas cylinder, equipped with a expansion valve according to the invention, preferably the said assembly is inserted in and protected by a protective bonnet mounted on the container.
The present invention will now be better understood by virtue of the detailed description which follows, given with reference to the appended figures.
Setting the pressure to its desired fixed value is performed in a way known per se and will not be detailed hereinbelow.
According to the invention, the body 30 also comprises a gas-outlet coupling 1 with shut-off allowing easy and quick connection and disconnection of an outlet connector to this expansion valve 50 so that the gas reduced to the said reduced pressure downstream of the pressure reducer can be collected and then used.
The opening for the gas passing through the body 30 of the expansion valve assembly 50 is controlled downstream of the pressure-reducing part and is synchronized with the connection of the gas outlet connector (see
Connecting this gas tapping or outlet connector to the gas outlet coupling 1 makes it possible, apart from the actual connection proper, to achieve sealing followed by a release of gas at the desired pressure.
Furthermore, a gas cylinder equipped with this type of expansion valve 50 can be filled without removing the assembly and this can be done simply by supplying the filling valve 31 with gas under pressure (high pressure) which then passes through the body 30 via the internal passage 32, 32 c, 32 a connecting the said filling valve 31 to the connection fitting 35 that allows the expansion valve 50 to be fixed to the neck of a gas cylinder. The internal gas passage 32, 32 c passes axially through the connecting fitting 35 which carries an external screw thread 36.
In fact, the passage 32 here comprises three portions 32 a, 32 b and 32 c. The portions 32 c and 32 a of the internal passage 32 connect, as explained hereinabove, the filling valve 31 to the connection fitting 35 and therefore to the inside of the cylinder, and are used when filling with high-pressure gas, while the passages 32 a and 32 b connect the inside of the cylinder, via the fitting 35, to the outlet port 18 borne by the outlet coupling 1 of the invention so as to allow the user to be supplied with low-pressure gas, that is to say gas at a pressure which has been reduced by comparison with the pressure of the gas in the container bearing the expansion valve 50.
By virtue of this type of expansion valve, use of the gas at low pressure is reduced to a single operation which is simple and quick.
If the user connector, supplying the user's gas circuit, is also of the type with shut-off, the use of a expansion valve according to the invention also preserves the quality of the gas.
The gas expansion valve further comprises, as detailed in
The internal gas passage 32 opens (at 32 b) at the outlet end 11 of this reduced-pressure fluid outlet coupling 1 and also comprises an external profile suited to receiving and to having connected to it a user connector 20 which has an internal profile tailored to and/or complementing the said external profile of the said coupling.
To solve the problem of the invention, the outlet coupling 1 comprises several cylindrical coupling portions P1 to P6, arranged so they are successive from the outlet end 11 of the outlet coupling 1 towards the end 10 via which the latter is coupled to the body of the expansion valve. The respective coupling portions P1 to P6 each have a respective outside diameter D1 to D6 as defined above.
By way of example, the dimensions (in mm) of the various diameters D1 to D6 of couplings 1 of several expansion valves according to the invention are given in Table I below.
Furthermore, the lengths L1 to L6 of the various portions P1 to P6 in examples 1 to 10 above were as given in Table II below.
Lengths of portions P1 to P6 (in mm)
More specifically, the user connector 20 has a fixing end which comprises an internal housing the profile of which is tailored to and complements that of the coupling 1 and which is intended to receive the projecting end of the coupling 1.
The fact of giving the coupling 1 several diameters D1 to D5 which differ and which increase, from the outlet end 11, makes it possible not only to facilitate the connecting of the connector to the coupling but also to avoid any risk of significant error when an ill-informed operator is connecting or coupling the user connector to the said coupling, because a connector with a profile not specific to that of the coupling will not be able to be coupled to it.
Furthermore, in order to make connection even quicker and more effective the connector 20 also comprises an internal guiding and locking system used, on the one hand, to receive and to guide the end 11 of the coupling 1 and, on the other hand, to prevent the connector 20 from becoming disconnected from the coupling 1, after coupling, by collaborating with the portions P3 and P6 of the coupling, which portions are situated peripherally on the cylindrical coupling 1 and respectively constitute a projecting annular part (P3) and a recessed annular portion forming a groove (P6).
Furthermore, the user connector 20 comprises a conventional system for controlling the passage of fluid from the coupling to the connector 20, which system in particular comprises a connector valve shutter equipped with a projecting portion which normally rests against a valve seat so as to shut off the fluid passage of the connector by means of the projecting portion borne by the valve shutter. An elastic means, such as a spring, exerts a thrusting force on the rear part of the shutter tending to push it back towards its seat. Conversely, when the valve shutter is lifted off its seat, fluid can flow into the connector 20 from its inlet end, through the fluid passage from which the projecting portion of the valve is now extracted, and is discharged via the central passage of the connector 20. An appropriate seal provides sealing between the coupling 1 and the connector 20 when these are connected to one another.
Furthermore the coupling 1 for its part comprises a coupling shutter and a shutter spring, and a seal, which seals the fluid outlet port, at a bearing surface.
The positioning of the connector 20 on the coupling 1 and the errorproofing associated with the specific profile of the assembly are achieved by pushing the user connector 20 in a translational movement over the outlet coupling 1 of the expansion valve. Sealing is obtained gradually by continuing to insert the connector 20 over the cylindrical outlet end of the coupling 1. When sealing has been achieved, the shutters in the connector and in the coupling respectively gradually open, these collaborating with one another by pushing each other back in synchronism or, as the case may be, successively one after the other. Furthermore, the locking system plays its part so as to allow the connector 20 to be fixed securely to the coupling 1. After that, as the shutters are lifted off their respective seats, the cycle of reducing the pressure to the desired pressure can begin and the reduced-pressure gas then passes to the user connector 20 and is then conveyed, via appropriate means, particularly pipes, hoses or the like, to the gas user site. Conversely, disconnection can be achieved by performing the opposite.
The expansion valve of the invention is particularly well suited to delivering a gas under pressure intended to pressurize a drink, particularly beer or a fizzy drink.
It will be understood that many additional changes in the details, materials, steps and arrangement of parts, which have been herein described in order to explain the nature of the invention, may be made by those skilled in the art within the principle and scope of the invention as expressed in the appended claims. Thus, the present invention is not intended to be limited to the specific embodiments in the examples given above.
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|U.S. Classification||251/366, 137/614.04, 251/149.6|
|International Classification||F16L37/32, F16L37/22, F16K27/00, G05D16/10|
|Cooperative Classification||F16L37/32, F16L37/22, Y10T137/87957|
|European Classification||F16L37/22, F16L37/32|
|May 28, 2004||AS||Assignment|
Owner name: L'AIR LIQUIDE, SOCIETE ANONYME A DIRECTOIRE ET CON
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:ARZENTON, MARCO;GOUNOT, ETIENNE;REEL/FRAME:015433/0680
Effective date: 20040413
|Feb 9, 2009||FPAY||Fee payment|
Year of fee payment: 4
|Feb 7, 2013||FPAY||Fee payment|
Year of fee payment: 8
|Mar 24, 2017||REMI||Maintenance fee reminder mailed|